Clémentine Laffont scite author profile

Clémentine Laffont

3Publications

80Citation Statements Received

187Citation Statements Given

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172

183

Affiliations

University of Zurich, Institut de Biosciences et Biotechnologies, Aix-Marseille University

Publications

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Simple rules govern the diversity of bacterial nicotianamine-like metallophores

Laffont

Brutesco

Hajjar

et al. 2019

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In metal-scarce environments, some pathogenic bacteria produce opine-type metallophores mainly to face the host's nutritional immunity. This is the case of staphylopine, pseudopaline and yersinopine, identified in Staphylococcus aureus, Pseudomonas aeruginosa and Yersinia pestis, respectively. Depending on the species, these metallophores are synthesized by two (CntLM) or three enzymes (CntKLM), CntM catalyzing the last step of biosynthesis using diverse substrates (pyruvate or α-ketoglutarate), pathway intermediates (xNA or yNA) and cofactors (NADH or NADPH). Here, we explored the substrate specificity of CntM by combining bioinformatic and structural analysis with chemical synthesis and enzymatic studies. We found that NAD(P)H selectivity is mainly due to the amino acid at position 33 (S. aureus numbering) which ensures a preferential binding to NADPH when it is an arginine. Moreover, whereas CntM from P. aeruginosa preferentially uses yNA over xNA, the staphylococcal enzyme is not stereospecific. Most importantly, selectivity toward α-ketoacids is largely governed by a single residue at position 150 of CntM (S. aureus numbering): an aspartate at this position ensures selectivity toward pyruvate, whereas an alanine leads to the consumption of both pyruvate and α-ketoglutarate. Modifying this residue in P. aeruginosa led to a complete reversal of selectivity. Thus, the diversity of opine-type metallophore is governed by the absence/presence of a cntK gene encoding a histidine racemase, and the amino acid residue at position 150 of CntM. These two simple rules predict the production of a fourth metallophore by Paenibacillus mucilaginosus, which was confirmed in vitro and called bacillopaline.

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Control by Metals of Staphylopine Dehydrogenase Activity during Metallophore Biosynthesis

et al. 2019

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Enzymatic regulations are central processes for the adaptation to changing environments. In the particular case of metallophore-dependent metal uptake, there is a need to quickly adjust the production of these metallophores to the metal level outside the cell, to avoid metal shortage or overload, as well as waste of metallophores. In Staphylococcus aureus, CntM catalyzes the last biosynthetic step in the production of staphylopine, a broad-spectrum metallophore, through the reductive condensation of a pathway intermediate (xNA) with pyruvate. Here, we describe the chemical synthesis of this intermediate, which was instrumental in the structural and functional characterization of CntM and confirmed its opine synthase properties. The three-dimensional structure of CntM was obtained in an “open” form, in the apo state or as a complex with substrate or product. The xNA substrate appears mainly stabilized by its imidazole ring through a π–π interaction with the side chain of Tyr240. Intriguingly, we found that metals exerted various and sometime antagonistic effects on the reaction catalyzed by CntM: zinc and copper are moderate activators at low concentration and then total inhibitors at higher concentration, whereas manganese is only an activator and cobalt and nickel are only inhibitors. We propose a model in which the relative affinity of a metal toward xNA and an inhibitory binding site on the enzyme controls activation, inhibition, or both as a function of metal concentration. This metal-dependent regulation of a metallophore-producing enzyme might also take place in vivo, which could contribute to the adjustment of metallophore production to the internal metal level.

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The ancient roots of nicotianamine: diversity, role, regulation and evolution of nicotianamine-like metallophores

Laffont

Arnoux

2020

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